Table Of Contents

Inverse f Filter (G Dataflow)

Version:
    Last Modified: January 9, 2017

    Designs and implements an IIR filter whose magnitude-squared response is inversely proportional to frequency over a specified frequency range. You can use the inverse-f filter to colorize spectrally flat, or white, noise.

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    exponent

    Exponent of the desired inverse-f spectral shape. This node designs a digital filter with the desired magnitude-squared response of 1/frequencyexponent.

    Default: 1

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    reset

    A Boolean that specifies the initialization of the internal state of the node.

    True Initializes the internal state to zero.
    False Initializes the internal state to the final state from the previous call of this node.

    This node automatically initializes the internal state to zero on the first call and runs continuously until this input is True.

    Default: False

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    signal

    The input signal.

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    low cutoff frequency

    Lower frequency edge of the operating frequency range of the filter.

    Default: 0.1

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    high cutoff frequency

    Higher frequency edge of the operating frequency range of the filter.

    Default: 100

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    order

    Number of first order stages of the inverse-f filter.

    Increasing order improves the inverse-f spectral shape but requires more computation time during the filter operation.

    Default: 5

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    error in

    Error conditions that occur before this node runs. The node responds to this input according to standard error behavior.

    Default: No error

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    sampling frequency

    The design sample rate in samples/second.

    Default: 1000

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    unity gain frequency

    Frequency, in radians per second, at which the ideal inverse-f filter response has unity gain.

    The actual inverse-f filter is designed to approximate the ideal filter over the frequency range defined by low cutoff frequency, high cutoff frequency, and order. Therefore, the actual gain of the filter at unity gain frequency is near unity only if unity gain frequency is within the design frequency range specified in low cutoff frequency, high cutoff frequency, and order.

    Default: 1

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    filtered signal

    The filtered signal.

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    filter information

    Magnitude and phase of the frequency response of the designed inverse-f filter.

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    magnitude (dB)

    Magnitude of the frequency response of the designed inverse-f filter in dB.

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    frequency (Hz)

    Frequencies of the frequency response of the designed inverse-f filter in Hz.

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    magnitude (dB)

    Magnitudes of the frequency response of the designed inverse-f filter in dB.

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    phase (deg)

    Phase of the frequency response of the designed inverse-f filter in degrees.

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    frequency (Hz)

    Frequencies of the frequency response of the designed inverse-f filter in Hz.

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    phase (deg)

    Phases of the frequency response of the designed inverse-f filter in degrees.

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    magnitude error

    Magnitude of the deviation of the actual inverse-f filter, in decibels, when measured against the ideal inverse-f filter.

    The ideal filter has a magnitude-squared response proportional to 1/f exponent over the frequency range specified by low cutoff frequency, high cutoff frequency, and order.

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    frequency (Hz)

    Frequencies of the magnitude error in Hz.

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    magnitude (dB)

    Magnitudes of the magnitude error in dB.

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    noise bandwidth

    Expected noise bandwidth of the designed inverse-f filter.

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    error out

    Error information. The node produces this output according to standard error behavior.

    Where This Node Can Run:

    Desktop OS: Windows

    FPGA: Not supported


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